vtx: fix VTX_SETTINGS_POWER_COUNT and add dummy entries to saPowerNames
[inav.git] / src / main / navigation / navigation.h
blob1b7734c8b130928695316113ce56b349c8c3e200
1 /*
2 * This file is part of Cleanflight.
4 * Cleanflight is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * Cleanflight is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with Cleanflight. If not, see <http://www.gnu.org/licenses/>.
18 #pragma once
20 #include <stdbool.h>
22 #include "common/axis.h"
23 #include "common/filter.h"
24 #include "common/maths.h"
25 #include "common/vector.h"
26 #include "common/fp_pid.h"
28 #include "config/feature.h"
30 #include "flight/failsafe.h"
32 #include "io/gps.h"
35 /* GPS Home location data */
36 extern gpsLocation_t GPS_home;
37 extern uint32_t GPS_distanceToHome; // distance to home point in meters
38 extern int16_t GPS_directionToHome; // direction to home point in degrees
40 extern bool autoThrottleManuallyIncreased;
42 /* Navigation system updates */
43 void onNewGPSData(void);
45 #if defined(USE_SAFE_HOME)
47 #define MAX_SAFE_HOMES 8
49 typedef struct {
50 uint8_t enabled;
51 int32_t lat;
52 int32_t lon;
53 } navSafeHome_t;
55 typedef enum {
56 SAFEHOME_USAGE_OFF = 0, // Don't use safehomes
57 SAFEHOME_USAGE_RTH = 1, // Default - use safehome for RTH
58 SAFEHOME_USAGE_RTH_FS = 2, // Use safehomes for RX failsafe only
59 } safehomeUsageMode_e;
61 PG_DECLARE_ARRAY(navSafeHome_t, MAX_SAFE_HOMES, safeHomeConfig);
63 void resetSafeHomes(void); // remove all safehomes
64 bool findNearestSafeHome(void); // Find nearest safehome
66 #endif // defined(USE_SAFE_HOME)
68 #ifdef USE_FW_AUTOLAND
70 #ifndef MAX_SAFE_HOMES
71 #define MAX_SAFE_HOMES 0
72 #endif
74 #define MAX_FW_LAND_APPOACH_SETTINGS (MAX_SAFE_HOMES + 9)
76 typedef enum {
77 FW_AUTOLAND_APPROACH_DIRECTION_LEFT,
78 FW_AUTOLAND_APPROACH_DIRECTION_RIGHT
79 } fwAutolandApproachDirection_e;
81 typedef enum {
82 FW_AUTOLAND_STATE_IDLE,
83 FW_AUTOLAND_STATE_LOITER,
84 FW_AUTOLAND_STATE_DOWNWIND,
85 FW_AUTOLAND_STATE_BASE_LEG,
86 FW_AUTOLAND_STATE_FINAL_APPROACH,
87 FW_AUTOLAND_STATE_GLIDE,
88 FW_AUTOLAND_STATE_FLARE
89 } fwAutolandState_t;
91 typedef struct {
92 int32_t approachAlt;
93 int32_t landAlt;
94 bool isSeaLevelRef;
95 fwAutolandApproachDirection_e approachDirection;
96 int16_t landApproachHeading1;
97 int16_t landApproachHeading2;
98 } navFwAutolandApproach_t;
100 PG_DECLARE_ARRAY(navFwAutolandApproach_t, MAX_FW_LAND_APPOACH_SETTINGS, fwAutolandApproachConfig);
102 typedef struct navFwAutolandConfig_s
104 uint32_t approachLength;
105 uint16_t finalApproachPitchToThrottleMod;
106 uint16_t glideAltitude;
107 uint16_t flareAltitude;
108 uint8_t flarePitch;
109 uint16_t maxTailwind;
110 int8_t glidePitch;
111 } navFwAutolandConfig_t;
113 PG_DECLARE(navFwAutolandConfig_t, navFwAutolandConfig);
115 void resetFwAutolandApproach(int8_t idx);
117 #endif
119 #ifndef NAV_MAX_WAYPOINTS
120 #define NAV_MAX_WAYPOINTS 15
121 #endif
123 #define NAV_ACCEL_CUTOFF_FREQUENCY_HZ 2 // low-pass filter on XY-acceleration target
125 enum {
126 NAV_GPS_ATTI = 0, // Pitch/roll stick controls attitude (pitch/roll lean angles)
127 NAV_GPS_CRUISE = 1 // Pitch/roll stick controls velocity (forward/right speed)
130 enum {
131 NAV_LOITER_RIGHT = 0, // Loitering direction right
132 NAV_LOITER_LEFT = 1, // Loitering direction left
133 NAV_LOITER_YAW = 2
136 enum {
137 NAV_RTH_NO_ALT = 0, // Maintain current altitude
138 NAV_RTH_EXTRA_ALT = 1, // Maintain current altitude + predefined safety margin
139 NAV_RTH_CONST_ALT = 2, // Climb/descend to predefined altitude
140 NAV_RTH_MAX_ALT = 3, // Track maximum altitude and climb to it when RTH
141 NAV_RTH_AT_LEAST_ALT = 4, // Climb to predefined altitude if below it
142 NAV_RTH_AT_LEAST_ALT_LINEAR_DESCENT = 5, // Climb to predefined altitude if below it,
143 // descend linearly to reach home at predefined altitude if above it
146 enum {
147 NAV_RTH_CLIMB_STAGE_AT_LEAST = 0, // Will climb to the lesser of rth_climb_first_stage_altitude or rth_altitude, before turning
148 NAV_RTH_CLIMB_STAGE_EXTRA = 1, // Will climb the lesser of rth_climb_first_stage_altitude above the current altitude or to nav_rth_altitude, before turning
151 enum {
152 NAV_HEADING_CONTROL_NONE = 0,
153 NAV_HEADING_CONTROL_AUTO,
154 NAV_HEADING_CONTROL_MANUAL
157 typedef enum {
158 NAV_RESET_NEVER = 0,
159 NAV_RESET_ON_FIRST_ARM,
160 NAV_RESET_ON_EACH_ARM,
161 } nav_reset_type_e;
163 typedef enum {
164 NAV_RTH_ALLOW_LANDING_NEVER = 0,
165 NAV_RTH_ALLOW_LANDING_ALWAYS = 1,
166 NAV_RTH_ALLOW_LANDING_FS_ONLY = 2, // Allow landing only if RTH was triggered by failsafe
167 } navRTHAllowLanding_e;
169 typedef enum {
170 NAV_EXTRA_ARMING_SAFETY_ON = 0,
171 NAV_EXTRA_ARMING_SAFETY_ALLOW_BYPASS = 1, // Allow disabling by holding THR + YAW high
172 } navExtraArmingSafety_e;
174 typedef enum {
175 NAV_ARMING_BLOCKER_NONE = 0,
176 NAV_ARMING_BLOCKER_MISSING_GPS_FIX = 1,
177 NAV_ARMING_BLOCKER_NAV_IS_ALREADY_ACTIVE = 2,
178 NAV_ARMING_BLOCKER_FIRST_WAYPOINT_TOO_FAR = 3,
179 NAV_ARMING_BLOCKER_JUMP_WAYPOINT_ERROR = 4,
180 } navArmingBlocker_e;
182 typedef enum {
183 NOMS_OFF_ALWAYS,
184 NOMS_OFF,
185 NOMS_AUTO_ONLY,
186 NOMS_ALL_NAV
187 } navOverridesMotorStop_e;
189 typedef enum {
190 RTH_CLIMB_OFF,
191 RTH_CLIMB_ON,
192 RTH_CLIMB_ON_FW_SPIRAL,
193 } navRTHClimbFirst_e;
195 typedef enum { // keep aligned with fixedWingLaunchState_t
196 FW_LAUNCH_DETECTED = 5,
197 FW_LAUNCH_ABORTED = 10,
198 FW_LAUNCH_FLYING = 11,
199 } navFwLaunchStatus_e;
201 typedef enum {
202 WP_PLAN_WAIT,
203 WP_PLAN_SAVE,
204 WP_PLAN_OK,
205 WP_PLAN_FULL,
206 } wpMissionPlannerStatus_e;
208 typedef enum {
209 WP_MISSION_START,
210 WP_MISSION_RESUME,
211 WP_MISSION_SWITCH,
212 } navMissionRestart_e;
214 typedef enum {
215 RTH_TRACKBACK_OFF,
216 RTH_TRACKBACK_ON,
217 RTH_TRACKBACK_FS,
218 } rthTrackbackMode_e;
220 typedef enum {
221 WP_TURN_SMOOTHING_OFF,
222 WP_TURN_SMOOTHING_ON,
223 WP_TURN_SMOOTHING_CUT,
224 } wpFwTurnSmoothing_e;
226 typedef enum {
227 MC_ALT_HOLD_STICK,
228 MC_ALT_HOLD_MID,
229 MC_ALT_HOLD_HOVER,
230 } navMcAltHoldThrottle_e;
232 typedef struct positionEstimationConfig_s {
233 uint8_t automatic_mag_declination;
234 uint8_t reset_altitude_type; // from nav_reset_type_e
235 uint8_t reset_home_type; // nav_reset_type_e
236 uint8_t gravity_calibration_tolerance; // Tolerance of gravity calibration (cm/s/s)
237 uint8_t allow_dead_reckoning;
239 uint16_t max_surface_altitude;
241 float w_z_baro_p; // Weight (cutoff frequency) for barometer altitude measurements
243 float w_z_surface_p; // Weight (cutoff frequency) for surface altitude measurements
244 float w_z_surface_v; // Weight (cutoff frequency) for surface velocity measurements
246 float w_z_gps_p; // GPS altitude data is very noisy and should be used only on airplanes
247 float w_z_gps_v; // Weight (cutoff frequency) for GPS climb rate measurements
249 float w_xy_gps_p; // Weight (cutoff frequency) for GPS position measurements
250 float w_xy_gps_v; // Weight (cutoff frequency) for GPS velocity measurements
252 float w_xy_flow_p;
253 float w_xy_flow_v;
255 float w_z_res_v; // When velocity sources lost slowly decrease estimated velocity with this weight
256 float w_xy_res_v;
258 float w_acc_bias; // Weight (cutoff frequency) for accelerometer bias estimation. 0 to disable.
260 float max_eph_epv; // Max estimated position error acceptable for estimation (cm)
261 float baro_epv; // Baro position error
263 #ifdef USE_GPS_FIX_ESTIMATION
264 uint8_t allow_gps_fix_estimation;
265 #endif
266 } positionEstimationConfig_t;
268 PG_DECLARE(positionEstimationConfig_t, positionEstimationConfig);
270 typedef struct navConfig_s {
272 struct {
273 struct {
274 uint8_t extra_arming_safety; // from navExtraArmingSafety_e
275 uint8_t user_control_mode; // NAV_GPS_ATTI or NAV_GPS_CRUISE
276 uint8_t rth_alt_control_mode; // Controls the logic for choosing the RTH altitude
277 uint8_t rth_climb_first; // Controls the logic for initial RTH climbout
278 uint8_t rth_climb_first_stage_mode; // To determine how rth_climb_first_stage_altitude is used
279 uint8_t rth_tail_first; // Return to home tail first
280 uint8_t disarm_on_landing; //
281 uint8_t rth_allow_landing; // Enable landing as last stage of RTH. Use constants in navRTHAllowLanding_e.
282 uint8_t rth_climb_ignore_emerg; // Option to ignore GPS loss on initial climb stage of RTH
283 uint8_t rth_alt_control_override; // Override RTH Altitude and Climb First settings using Pitch and Roll stick
284 uint8_t nav_overrides_motor_stop; // Autonomous modes override motor_stop setting and user command to stop motor
285 uint8_t safehome_usage_mode; // Controls when safehomes are used
286 uint8_t soaring_motor_stop; // stop motor when Soaring mode enabled
287 uint8_t mission_planner_reset; // Allow WP Mission Planner reset using mode toggle (resets WPs to 0)
288 uint8_t waypoint_mission_restart; // Waypoint mission restart action
289 uint8_t rth_trackback_mode; // Useage mode setting for RTH trackback
290 uint8_t rth_use_linear_descent; // Use linear descent in the RTH head home leg
291 uint8_t landing_bump_detection; // Allow landing detection based on G bump at touchdown
292 } flags;
294 uint8_t pos_failure_timeout; // Time to wait before switching to emergency landing (0 - disable)
295 uint16_t waypoint_radius; // if we are within this distance to a waypoint then we consider it reached (distance is in cm)
296 uint16_t waypoint_safe_distance; // Waypoint mission sanity check distance
297 #ifdef USE_MULTI_MISSION
298 uint8_t waypoint_multi_mission_index; // Index of mission to be loaded in multi mission entry
299 #endif
300 bool waypoint_load_on_boot; // load waypoints automatically during boot
301 uint16_t auto_speed; // autonomous navigation speed cm/sec
302 uint8_t min_ground_speed; // Minimum navigation ground speed [m/s]
303 uint16_t max_auto_speed; // maximum allowed autonomous navigation speed cm/sec
304 uint16_t max_manual_speed; // manual velocity control max horizontal speed
305 uint16_t land_minalt_vspd; // Final RTH landing descent rate under minalt
306 uint16_t land_maxalt_vspd; // RTH landing descent rate target at maxalt
307 uint16_t land_slowdown_minalt; // Altitude to stop lowering descent rate during RTH descend
308 uint16_t land_slowdown_maxalt; // Altitude to start lowering descent rate during RTH descend
309 uint16_t emerg_descent_rate; // emergency landing descent rate
310 uint16_t rth_altitude; // altitude to maintain when RTH is active (depends on rth_alt_control_mode) (cm)
311 uint16_t rth_home_altitude; // altitude to go to during RTH after the craft reached home (cm)
312 uint16_t rth_climb_first_stage_altitude; // Altitude to reach before transitioning from climb first to turn first
313 uint16_t min_rth_distance; // 0 Disables. Minimal distance for RTH in cm, otherwise it will just autoland
314 uint16_t rth_abort_threshold; // Initiate emergency landing if during RTH we get this much [cm] away from home
315 uint16_t max_terrain_follow_altitude; // Max altitude to be used in SURFACE TRACKING mode
316 uint16_t safehome_max_distance; // Max distance that a safehome is from the arming point
317 uint16_t max_altitude; // Max altitude when in AltHold mode (not Surface Following)
318 uint16_t rth_trackback_distance; // RTH trackback maximum distance [m]
319 uint16_t waypoint_enforce_altitude; // Forces waypoint altitude to be achieved
320 uint8_t land_detect_sensitivity; // Sensitivity of landing detector
321 uint16_t auto_disarm_delay; // safety time delay for landing detector
322 uint16_t rth_linear_descent_start_distance; // Distance from home to start the linear descent (0 = immediately)
323 uint8_t cruise_yaw_rate; // Max yaw rate (dps) when CRUISE MODE is enabled
324 uint16_t rth_fs_landing_delay; // Delay upon reaching home before starting landing if in FS (0 = immediate)
325 } general;
327 struct {
328 uint8_t max_bank_angle; // multicopter max banking angle (deg)
329 uint16_t max_auto_climb_rate; // max vertical speed limitation nav modes cm/sec
330 uint16_t max_manual_climb_rate; // manual velocity control max vertical speed
332 #ifdef USE_MR_BRAKING_MODE
333 uint16_t braking_speed_threshold; // above this speed braking routine might kick in
334 uint16_t braking_disengage_speed; // below this speed braking will be disengaged
335 uint16_t braking_timeout; // Timeout for braking mode
336 uint8_t braking_boost_factor; // Acceleration boost multiplier at max speed
337 uint16_t braking_boost_timeout; // Timeout for boost mode
338 uint16_t braking_boost_speed_threshold; // Above this speed braking boost mode can engage
339 uint16_t braking_boost_disengage_speed; // Below this speed braking boost will disengage
340 uint8_t braking_bank_angle; // Max angle [deg] that MR is allowed duing braking boost phase
341 #endif
343 uint8_t posDecelerationTime; // Brake time parameter
344 uint8_t posResponseExpo; // Position controller expo (taret vel expo for MC)
345 bool slowDownForTurning; // Slow down during WP missions when changing heading on next waypoint
346 uint8_t althold_throttle_type; // throttle zero datum type for alt hold
347 uint8_t inverted_crash_detection; // Enables inverted crash detection, setting defines disarm time delay (0 = disabled)
348 } mc;
350 struct {
351 uint8_t max_bank_angle; // Fixed wing max banking angle (deg)
352 uint16_t max_auto_climb_rate; // max vertical speed limitation nav modes cm/sec
353 uint16_t max_manual_climb_rate; // manual velocity control max vertical speed
354 uint8_t max_climb_angle; // Fixed wing max banking angle (deg)
355 uint8_t max_dive_angle; // Fixed wing max banking angle (deg)
356 uint16_t cruise_speed; // Speed at cruise throttle (cm/s), used for time/distance left before RTH
357 uint8_t control_smoothness; // The amount of smoothing to apply to controls for navigation
358 uint16_t pitch_to_throttle_smooth; // How smoothly the autopilot makes pitch to throttle correction inside a deadband defined by pitch_to_throttle_thresh.
359 uint8_t pitch_to_throttle_thresh; // Threshold from average pitch where momentary pitch_to_throttle correction kicks in. [decidegrees]
360 uint16_t minThrottleDownPitchAngle; // Automatic pitch down angle when throttle is at 0 in angle mode. Progressively applied between cruise throttle and zero throttle. [decidegrees]
361 uint16_t loiter_radius; // Loiter radius when executing PH on a fixed wing
362 uint8_t loiter_direction; // Direction of loitering center point on right wing (clockwise - as before), or center point on left wing (counterclockwise)
363 int8_t land_dive_angle;
364 uint16_t launch_velocity_thresh; // Velocity threshold for swing launch detection
365 uint16_t launch_accel_thresh; // Acceleration threshold for launch detection (cm/s/s)
366 uint16_t launch_time_thresh; // Time threshold for launch detection (ms)
367 uint16_t launch_motor_timer; // Time to wait before setting launch_throttle (ms)
368 uint16_t launch_idle_motor_timer; // Time to wait before motor starts at_idle throttle (ms)
369 uint8_t launch_wiggle_wake_idle; // Activate the idle throttle by wiggling the plane. 0 = disabled, 1 or 2 specify the number of wiggles.
370 uint16_t launch_motor_spinup_time; // Time to speed-up motors from idle to launch_throttle (ESC desync prevention)
371 uint16_t launch_end_time; // Time to make the transition from launch angle to leveled and throttle transition from launch throttle to the stick position
372 uint16_t launch_min_time; // Minimum time in launch mode to prevent possible bump of the sticks from leaving launch mode early
373 uint16_t launch_timeout; // Launch timeout to disable launch mode and swith to normal flight (ms)
374 uint16_t launch_max_altitude; // cm, altitude where to consider launch ended
375 uint8_t launch_climb_angle; // Target climb angle for launch (deg)
376 uint8_t launch_max_angle; // Max tilt angle (pitch/roll combined) to consider launch successful. Set to 180 to disable completely [deg]
377 bool launch_manual_throttle; // Allows launch with manual throttle control
378 uint8_t launch_land_abort_deadband; // roll/pitch stick movement deadband for launch abort
379 uint8_t cruise_yaw_rate; // Max yaw rate (dps) when CRUISE MODE is enabled
380 bool allow_manual_thr_increase;
381 bool useFwNavYawControl;
382 uint8_t yawControlDeadband;
383 uint8_t soaring_pitch_deadband; // soaring mode pitch angle deadband (deg)
384 uint8_t wp_tracking_accuracy; // fixed wing tracking accuracy response factor
385 uint8_t wp_tracking_max_angle; // fixed wing tracking accuracy max alignment angle [degs]
386 uint8_t wp_turn_smoothing; // WP mission turn smoothing options
387 } fw;
388 } navConfig_t;
390 PG_DECLARE(navConfig_t, navConfig);
392 typedef struct gpsOrigin_s {
393 bool valid;
394 float scale;
395 int32_t lat; // Lattitude * 1e+7
396 int32_t lon; // Longitude * 1e+7
397 int32_t alt; // Altitude in centimeters (meters * 100)
398 } gpsOrigin_t;
400 typedef enum {
401 NAV_WP_ACTION_WAYPOINT = 0x01,
402 NAV_WP_ACTION_HOLD_TIME = 0x03,
403 NAV_WP_ACTION_RTH = 0x04,
404 NAV_WP_ACTION_SET_POI = 0x05,
405 NAV_WP_ACTION_JUMP = 0x06,
406 NAV_WP_ACTION_SET_HEAD = 0x07,
407 NAV_WP_ACTION_LAND = 0x08
408 } navWaypointActions_e;
410 typedef enum {
411 NAV_WP_HEAD_MODE_NONE = 0,
412 NAV_WP_HEAD_MODE_POI = 1,
413 NAV_WP_HEAD_MODE_FIXED = 2
414 } navWaypointHeadings_e;
416 typedef enum {
417 NAV_WP_FLAG_HOME = 0x48,
418 NAV_WP_FLAG_LAST = 0xA5
419 } navWaypointFlags_e;
421 /* A reminder that P3 is a bitfield */
422 typedef enum {
423 NAV_WP_ALTMODE = (1<<0),
424 NAV_WP_USER1 = (1<<1),
425 NAV_WP_USER2 = (1<<2),
426 NAV_WP_USER3 = (1<<3),
427 NAV_WP_USER4 = (1<<4)
428 } navWaypointP3Flags_e;
430 typedef struct {
431 int32_t lat;
432 int32_t lon;
433 int32_t alt;
434 int16_t p1, p2, p3;
435 uint8_t action;
436 uint8_t flag;
437 } navWaypoint_t;
439 typedef struct {
440 navWaypointHeadings_e mode;
441 uint32_t heading; // fixed heading * 100 (SET_HEAD)
442 fpVector3_t poi_pos; // POI location in local coordinates (SET_POI)
443 } navWapointHeading_t;
445 typedef struct radar_pois_s {
446 gpsLocation_t gps;
447 uint8_t state;
448 uint16_t heading; // °
449 uint16_t speed; // cm/s
450 uint8_t lq; // from 0 t o 4
451 uint16_t distance; // m
452 int16_t altitude; // m
453 int16_t direction; // °
454 } radar_pois_t;
456 #define RADAR_MAX_POIS 5
458 extern radar_pois_t radar_pois[RADAR_MAX_POIS];
460 typedef struct {
461 fpVector3_t pos;
462 int32_t heading; // centidegrees
463 int32_t bearing; // centidegrees
464 int32_t nextTurnAngle; // centidegrees
465 } navWaypointPosition_t;
467 typedef struct navDestinationPath_s { // NOT USED
468 uint32_t distance; // meters * 100
469 int32_t bearing; // deg * 100
470 } navDestinationPath_t;
472 typedef struct navigationPIDControllers_s {
473 /* Multicopter PIDs */
474 pidController_t pos[XYZ_AXIS_COUNT];
475 pidController_t vel[XYZ_AXIS_COUNT];
476 pidController_t surface;
478 /* Fixed-wing PIDs */
479 pidController_t fw_alt;
480 pidController_t fw_nav;
481 pidController_t fw_heading;
482 } navigationPIDControllers_t;
484 /* MultiWii-compatible params for telemetry */
485 typedef enum {
486 MW_GPS_MODE_NONE = 0,
487 MW_GPS_MODE_HOLD,
488 MW_GPS_MODE_RTH,
489 MW_GPS_MODE_NAV,
490 MW_GPS_MODE_EMERG = 15
491 } navSystemStatus_Mode_e;
493 typedef enum {
494 MW_NAV_STATE_NONE = 0, // None
495 MW_NAV_STATE_RTH_START, // RTH Start
496 MW_NAV_STATE_RTH_ENROUTE, // RTH Enroute
497 MW_NAV_STATE_HOLD_INFINIT, // PosHold infinit
498 MW_NAV_STATE_HOLD_TIMED, // PosHold timed
499 MW_NAV_STATE_WP_ENROUTE, // WP Enroute
500 MW_NAV_STATE_PROCESS_NEXT, // Process next
501 MW_NAV_STATE_DO_JUMP, // Jump
502 MW_NAV_STATE_LAND_START, // Start Land (unused)
503 MW_NAV_STATE_LAND_IN_PROGRESS, // Land in Progress
504 MW_NAV_STATE_LANDED, // Landed
505 MW_NAV_STATE_LAND_SETTLE, // Settling before land
506 MW_NAV_STATE_LAND_START_DESCENT, // Start descent
507 MW_NAV_STATE_HOVER_ABOVE_HOME, // Hover/Loitering above home
508 MW_NAV_STATE_EMERGENCY_LANDING, // Emergency landing
509 MW_NAV_STATE_RTH_CLIMB, // RTH Climb safe altitude
510 } navSystemStatus_State_e;
512 typedef enum {
513 MW_NAV_ERROR_NONE = 0, //All systems clear
514 MW_NAV_ERROR_TOOFAR, //Next waypoint distance is more than safety distance
515 MW_NAV_ERROR_SPOILED_GPS, //GPS reception is compromised - Nav paused - copter is adrift !
516 MW_NAV_ERROR_WP_CRC, //CRC error reading WP data from EEPROM - Nav stopped
517 MW_NAV_ERROR_FINISH, //End flag detected, navigation finished
518 MW_NAV_ERROR_TIMEWAIT, //Waiting for poshold timer
519 MW_NAV_ERROR_INVALID_JUMP, //Invalid jump target detected, aborting
520 MW_NAV_ERROR_INVALID_DATA, //Invalid mission step action code, aborting, copter is adrift
521 MW_NAV_ERROR_WAIT_FOR_RTH_ALT, //Waiting to reach RTH Altitude
522 MW_NAV_ERROR_GPS_FIX_LOST, //Gps fix lost, aborting mission
523 MW_NAV_ERROR_DISARMED, //NAV engine disabled due disarm
524 MW_NAV_ERROR_LANDING //Landing
525 } navSystemStatus_Error_e;
527 typedef enum {
528 MW_NAV_FLAG_ADJUSTING_POSITION = 1 << 0,
529 MW_NAV_FLAG_ADJUSTING_ALTITUDE = 1 << 1,
530 } navSystemStatus_Flags_e;
532 typedef struct {
533 navSystemStatus_Mode_e mode;
534 navSystemStatus_State_e state;
535 navSystemStatus_Error_e error;
536 navSystemStatus_Flags_e flags;
537 uint8_t activeWpNumber;
538 uint8_t activeWpIndex;
539 navWaypointActions_e activeWpAction;
540 } navSystemStatus_t;
542 void navigationUsePIDs(void);
543 void navigationInit(void);
545 /* Position estimator update functions */
546 void updatePositionEstimator_BaroTopic(timeUs_t currentTimeUs);
547 void updatePositionEstimator_OpticalFlowTopic(timeUs_t currentTimeUs);
548 void updatePositionEstimator_SurfaceTopic(timeUs_t currentTimeUs, float newSurfaceAlt);
549 void updatePositionEstimator_PitotTopic(timeUs_t currentTimeUs);
551 /* Navigation system updates */
552 void updateWaypointsAndNavigationMode(void);
553 void updatePositionEstimator(void);
554 void applyWaypointNavigationAndAltitudeHold(void);
556 /* Functions to signal navigation requirements to main loop */
557 bool navigationRequiresAngleMode(void);
558 bool navigationRequiresThrottleTiltCompensation(void);
559 bool navigationRequiresTurnAssistance(void);
560 int8_t navigationGetHeadingControlState(void);
561 // Returns wether arming is blocked by the navigation system.
562 // If usedBypass is provided, it will indicate wether any checks
563 // were bypassed due to user input.
564 navArmingBlocker_e navigationIsBlockingArming(bool *usedBypass);
565 bool navigationPositionEstimateIsHealthy(void);
566 bool navIsCalibrationComplete(void);
567 bool navigationTerrainFollowingEnabled(void);
569 /* Access to estimated position and velocity */
570 typedef struct {
571 uint8_t altStatus;
572 uint8_t posStatus;
573 uint8_t velStatus;
574 uint8_t aglStatus;
575 fpVector3_t pos;
576 fpVector3_t vel;
577 float agl;
578 } navPositionAndVelocity_t;
580 float getEstimatedActualVelocity(int axis);
581 float getEstimatedActualPosition(int axis);
582 uint32_t getTotalTravelDistance(void);
583 void getEstimatedPositionAndVelocity(navPositionAndVelocity_t * pos);
585 /* Waypoint list access functions */
586 int getWaypointCount(void);
587 bool isWaypointListValid(void);
588 void getWaypoint(uint8_t wpNumber, navWaypoint_t * wpData);
589 void setWaypoint(uint8_t wpNumber, const navWaypoint_t * wpData);
590 void resetWaypointList(void);
591 bool loadNonVolatileWaypointList(bool clearIfLoaded);
592 bool saveNonVolatileWaypointList(void);
593 #ifdef USE_MULTI_MISSION
594 void selectMultiMissionIndex(int8_t increment);
595 #endif
596 float getFinalRTHAltitude(void);
597 int16_t fixedWingPitchToThrottleCorrection(int16_t pitch, timeUs_t currentTimeUs);
599 /* Geodetic functions */
600 typedef enum {
601 GEO_ALT_ABSOLUTE,
602 GEO_ALT_RELATIVE
603 } geoAltitudeConversionMode_e;
605 typedef enum {
606 GEO_ORIGIN_SET,
607 GEO_ORIGIN_RESET_ALTITUDE
608 } geoOriginResetMode_e;
610 typedef enum {
611 NAV_WP_TAKEOFF_DATUM,
612 NAV_WP_MSL_DATUM
613 } geoAltitudeDatumFlag_e;
615 // geoSetOrigin stores the location provided in llh as a GPS origin in the
616 // provided origin parameter. resetMode indicates wether all origin coordinates
617 // should be overwritten by llh (GEO_ORIGIN_SET) or just the altitude, leaving
618 // other fields untouched (GEO_ORIGIN_RESET_ALTITUDE).
619 void geoSetOrigin(gpsOrigin_t *origin, const gpsLocation_t *llh, geoOriginResetMode_e resetMode);
620 // geoConvertGeodeticToLocal converts the geodetic location given in llh to
621 // the local coordinate space and stores the result in pos. The altConv
622 // indicates wether the altitude in llh is relative to the default GPS
623 // origin (GEO_ALT_RELATIVE) or absolute (e.g. Earth frame)
624 // (GEO_ALT_ABSOLUTE). If origin is invalid pos is set to
625 // (0, 0, 0) and false is returned. It returns true otherwise.
626 bool geoConvertGeodeticToLocal(fpVector3_t *pos, const gpsOrigin_t *origin, const gpsLocation_t *llh, geoAltitudeConversionMode_e altConv);
627 // geoConvertGeodeticToLocalOrigin calls geoConvertGeodeticToLocal with the
628 // default GPS origin.
629 bool geoConvertGeodeticToLocalOrigin(fpVector3_t * pos, const gpsLocation_t *llh, geoAltitudeConversionMode_e altConv);
630 // geoConvertLocalToGeodetic converts a local point as provided in pos to
631 // geodetic coordinates using the provided GPS origin. It returns wether
632 // the provided origin is valid and the conversion could be performed.
633 bool geoConvertLocalToGeodetic(gpsLocation_t *llh, const gpsOrigin_t *origin, const fpVector3_t *pos);
634 float geoCalculateMagDeclination(const gpsLocation_t * llh); // degrees units
635 // Select absolute or relative altitude based on WP mission flag setting
636 geoAltitudeConversionMode_e waypointMissionAltConvMode(geoAltitudeDatumFlag_e datumFlag);
638 void calculateAndSetActiveWaypointToLocalPosition(const fpVector3_t *pos);
639 bool isWaypointReached(const fpVector3_t * waypointPos, const int32_t * waypointBearing);
641 /* Distance/bearing calculation */
642 bool navCalculatePathToDestination(navDestinationPath_t *result, const fpVector3_t * destinationPos); // NOT USED
643 uint32_t distanceToFirstWP(void);
645 /* Failsafe-forced RTH mode */
646 void activateForcedRTH(void);
647 void abortForcedRTH(void);
648 rthState_e getStateOfForcedRTH(void);
650 /* Failsafe-forced Emergency Landing mode */
651 void activateForcedEmergLanding(void);
652 void abortForcedEmergLanding(void);
653 emergLandState_e getStateOfForcedEmergLanding(void);
655 /* Getter functions which return data about the state of the navigation system */
656 bool navigationInAutomaticThrottleMode(void);
657 bool navigationIsControllingThrottle(void);
658 bool isFixedWingAutoThrottleManuallyIncreased(void);
659 bool navigationIsFlyingAutonomousMode(void);
660 bool navigationIsExecutingAnEmergencyLanding(void);
661 bool navigationIsControllingAltitude(void);
662 /* Returns true if navConfig()->general.flags.rth_allow_landing is NAV_RTH_ALLOW_LANDING_ALWAYS
663 * or if it's NAV_RTH_ALLOW_LANDING_FAILSAFE and failsafe mode is active.
665 bool navigationRTHAllowsLanding(void);
666 bool isWaypointMissionRTHActive(void);
668 bool rthClimbStageActiveAndComplete(void);
670 bool isNavLaunchEnabled(void);
671 uint8_t fixedWingLaunchStatus(void);
672 const char * fixedWingLaunchStateMessage(void);
674 float calculateAverageSpeed(void);
676 void updateLandingStatus(timeMs_t currentTimeMs);
677 bool isProbablyStillFlying(void);
678 void resetLandingDetectorActiveState(void);
680 const navigationPIDControllers_t* getNavigationPIDControllers(void);
682 int32_t navigationGetHeadingError(void);
683 float navigationGetCrossTrackError(void);
684 int32_t getCruiseHeadingAdjustment(void);
685 bool isAdjustingPosition(void);
686 bool isAdjustingHeading(void);
688 float getEstimatedAglPosition(void);
689 bool isEstimatedAglTrusted(void);
691 void checkManualEmergencyLandingControl(bool forcedActivation);
692 void updateBaroAltitudeRate(float newBaroAltRate);
693 bool rthAltControlStickOverrideCheck(uint8_t axis);
695 int8_t navCheckActiveAngleHoldAxis(void);
696 uint8_t getActiveWpNumber(void);
697 uint16_t getFlownLoiterRadius(void);
699 /* Returns the heading recorded when home position was acquired.
700 * Note that the navigation system uses deg*100 as unit and angles
701 * are in the [0, 360 * 100) interval.
703 int32_t navigationGetHomeHeading(void);
705 #ifdef USE_FW_AUTOLAND
706 bool canFwLandingBeCancelled(void);
707 #endif
709 /* Compatibility data */
710 extern navSystemStatus_t NAV_Status;
712 extern int16_t navCurrentState;
713 extern int16_t navActualVelocity[3];
714 extern int16_t navDesiredVelocity[3];
715 extern int32_t navTargetPosition[3];
716 extern int32_t navLatestActualPosition[3];
717 extern uint16_t navDesiredHeading;
718 extern int16_t navActualSurface;
719 extern uint16_t navFlags;
720 extern uint16_t navEPH;
721 extern uint16_t navEPV;
722 extern int16_t navAccNEU[3];